红鳞蒲桃开花物候特性研究

对红鳞蒲桃种群的花期物候，单株、单个花序、单花的开花动态进行系统的观测研究，详细测量并记录花部构件，同时调查红鳞蒲桃种群的同花期植物。结果表明：红鳞蒲桃种群的花期物候为8月1日～9月15日（2008年），持续时间46d；单株花期从23d到33d不等；单花序的花期情况较为复杂，总体表现为花朵数越多，该花序持续时间越长，但也有个别情况出现，在开花中期花序持续时间长，开花后期花序持续时间最短，开花前期花序持续时间介于两者之间；在整个种群花期内单花平均开花时间约5．2d，种群开花前期单花的持续时间约为6．7d，开花中期约为4．7d，末花期约为4．3d，种群开花前期单花的持续时间显著大于种群中后期的持续时间。红鳞蒲桃种群的同花期植物隶属于16科21属22种。     

咖啡黑小蠹的发生规律及药剂防治研究

咖啡黑小蠢是近年在兴隆华侨农场严重危害中粒种咖啡的重要害虫。据1989年对4—5年生咖啡树调查,植株受害率100％,枝条受害率29.7—82.5％,虫害枯枝率7.65—17.8％。该虫以雌成虫钻蛀咖啡枝条为害,幼虫和成虫取食蛀道壁上的真菌菌丝。田间种群数量通常在3月上旬开始剧增,3月中下旬为高峰期,7月至10月田间虫口极少,11月以后逐渐有虫口及虫枯枝出现。温度是影响虫口波动的主要因素。2.5％溴氰菊酶、25％杀虫双、40％乐菊酯各兑水1000倍对成虫直接触杀效果显著,死亡率均为100％。48％乐斯本、40％氧化乐果400—800倍液等12种杀虫剂田间喷雾对咖啡枝条蛀洞内的成虫、蛹、幼虫防效均不明显。     

隐耳漠虎（Alsophylax pipiens）的生物学资料

本文根据１９８６年４～８月在乌鲁木齐雅玛里克山（９０余号）及校园内捕获的（１８只）Ａｌｓｏｐｈｙｌａｘｐｉｐｉｅｎｓ，观察得知其产卵在５～６月，每次产卵一枚，卵壳系钙质，性成熟在出生后第三年。瞳孔圆形，强光下呈垂直线状。动食性，卞要以昆虫、蜘蛛及蝎子为食。     

天目蜜李丰产技术研究

配置一定比例授粉树种，是提高授粉效果获得丰产的基础。授粉树比例幼龄期高于成龄期，授粉树花期应与天目蜜李基本一致、果形近似、品质好、抗性强的优良品种，这样才能确保果品的质量与产量。     

菱传粉生物学研究

以6 个菱品种为试材，对花器形态特征、群体花期及单花开花动态、开花时间、柱头可授性、花粉活力、杂交指数 及传粉形式等进行观察测定。结果表明：菱花单生，两性，单花花期15 h，群体花期在5～10 月，盛花期在7～8 月；不同 品种在一天中的开花高峰期存在差异；柱头可授期主要在萼片开裂后2 h 内，结实率在50% 以上；花粉在自然授粉条件下活 力可保持7.5 h；以自花授粉为主，同时存在一定程度的无融合生殖和少量异花授粉。     

处理主干和主枝对光皮树幼树早花早实的促进效果

对3年生光皮树幼树,采用环割倒贴皮、铁丝绞缢、绳索绞缢、环刻4种人工造伤方法分别对其主干和主枝进行处理.结果表明:4种处理方法对树干直径和冠幅生长的影响差异不显著;铁丝绞缢主枝法处理,其树高及开花株数和开花数量都与其他处理存在显著差异;铁丝绞缢主枝与铁丝绞缢主干法促进开花的效果差异不显著.     

滇中蛹虫草居群生物学及其生态学习性研究

通过对滇中地区昆明西山、昆明野鸭湖、嵩明大哨和楚雄紫溪山分布的蛹虫草居群，进行调查和采样，调查分析了蛹虫草的生境，比较研究了蛹虫草不同居群有性型及无性型形态差异，对蛹虫草无性型的产孢结构进行光学显微镜和扫描电镜观察研究。研究发现，蛹虫草子囊壳着生方式及其大小、子囊大小、无性型，随生境不同而发生差异。在云南松常绿阔叶混交林下的子囊壳及子囊较大，分离得到的无性型以拟青霉型（Paecilomyces－type）产孢结构占优势；在华山松林和田埂草丛生境中的子囊壳及其子囊较小，分离得到的无性型以轮枝孢型（Verticillium－type）产孢结构占优势。     

新疆与美国早实核桃(Juglans regia L.)品种生长结实与成花特性比较

以引进的美国核桃品种‘维纳’、‘艾米格’和新疆本地品种‘温185’和‘新新2号’为试材,研究分析不同品种的植物学和生物学特性、花芽分化过程以及相关成花基因的表达。结果显示:4个品种在树体生长、枝芽发育特性、物侯期以及成花率和坐果率方面没有明显差异。在结果枝同一坐果部位形成双果、三果或以上的能力‘新新2号’明显强于‘维纳’,但‘新新2号’的果实大小和单果重都低于‘维纳’,而‘维纳’平均结果母枝上形成侧花芽的数量和坐果率高于‘新新2号’。从萌芽到开花结束直至当年侧芽发育过程中‘维纳’混合芽中的JrFT和JrLFY基因表达也高于‘新新2号’,而同时期的JrFLC基因表达则相对较低,说明‘维纳’在花芽分化和花器官形成过程中通过高表达JrFT和JrLFY基因,低表达JrFLC基因促进结果母枝上形成大量侧花芽,并利用大量侧花芽抽生结果枝坐果,形成较大的果实,使得最终产量并不低于同一个坐果部位大量着生2个或多个果实的‘新新2号’品种。     

Quantitative trait loci for fruit size and flowering time-related traits under domestication and diversifying selection in cucumber (Cucumis sativus)

In cucumber, the genetic basis of traits under domestication and/or diversifying selection is not well understood. Here, we reported QTL mapping for flowering time and fruit size-related traits with segregating populations derived from a cultivated × wild cross. Phenotypic data of flowering time (FT), fruit size (FS), fruit number (FN) and fruit weight per plant (FW) were collected in multiple environments. QTL analysis identified 19 QTL for these traits. We found that the major-effect QTL FT1.1 played an important role in regulating flowering time in cultivated cucumber, whereas the minor-effect QTL FT6.3 contributed to photoperiod sensitive flowering time during domestication. Two novel consensus FS QTL, FS1.4 and FS2.3, seem to be the targets of selection during breeding for the US processing cucumber. All other FS QTL were co-localized with previously detected QTL using populations derived from cultivated cucumbers, suggesting that they were under selection during both initial domestication and subsequent improvement. Results from this study also suggested that the wild cucumber is a useful resource for capturing positive transgressive segregation and novel alleles that could be explored in cucumber breeding.     

High night-time temperature during flowering and pod filling affects flower opening,yield and seed fatty acid composition in canola

Winter canola (Brassica napus L.) is highly sensitive to increasing temperatures during the reproductive and pod-filling stages. Although the impact of high day-time temperature stress on yield and quality has been documented in canola, similar information under high night-time temperature (HNT) stress is not available. Using six hybrids and four open-pollinated cultivars, we observed a marked shift in peak flowering towards earlier, cooler hours of the morning under HNT. Averaged across two independent experiments, the photochemical efficiency of photosystem II was significantly decreased (3%), with a significant increase in thylakoid membrane damage (13%) in the leaves of susceptible cultivars under HNT stress. Similarly, the susceptible cultivars also recorded significant reduction in biomass (34%), pod number (22%), pod weight (37%) and total seed weight (40%) per plant while the same set of agronomic traits were not affected among the tolerant cultivars. Quantitative impact of heat stress was confirmed with increased sensitivity to HNT exposure from gametogenesis until maturity resulting in a significantly higher yield loss compared to stress exposure from post-flowering till maturity. HNT significantly decreased oil concentration, but increased protein concentration and saturated fatty acid levels in seeds of the susceptible cultivars. However, HNT had no impact on the unsaturated fatty acids in both hybrids and the open-pollinated cultivars. Breeding targets based on fatty acid composition for enhancing canola seed quality may not be easily amenable due to the inconsistency documented with the compositional changes under heat stress. In summary, our findings conclude that canola hybrids are better suited to regions experiencing heat stress, compared to open-pollinated cultivars, indicating the possibility of a complete shift to hybrid canola cultivation under predicted hotter climates in the future.